Stereo laparoscope apparatus
First Claim
Patent Images
1. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope to human eyes, the laparoscope comprising:
- a hollow elongate casing having side walls and an axial direction;
means coupled to the casing for illuminating the intracorporeal region to thereby cause said region to reflect light;
left and right observation windows disposed in the side walls of the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; and
means for processing the light received into a stereoscopic optical image of the intracorporeal region;
light emitting means disposed within the hollow casing for emitting light; and
an illuminating window disposed in the side walls of the casing for projecting said emitted light onto the intracorporeal region to thereby cause said region to reflect light;
wherein the means for processing further comprises;
imaging means coupled to the casing for processing the light received into left and right optical images of the intracorporeal region, respectively, said optical images having left and right points of view;
left and right mirrors disposed within the casing for reflecting said left and right optical images within the casing in the axial direction and along a common line of sight such that said images become superimposed upon each other at some point;
an imaging lens disposed within the casing between the left and right mirrors for collecting and magnifying one of said optical images to thereby cause said left and right optical images to have substantially the same magnification when they become superimposed upon each other;
a polarizing beam splitter disposed within the casing along said common line of sight for receiving the left and right optical images, and for polarizing said images such that said left and right optical images have opposing polarity, respectively, and transmitting said left and right polarized optical images further along the common line of sight;
at least one optical switch disposed within the casing for receiving said polarized optical images and alternately blocking said left polarized optical image while transmitting said right polarized optical image and blocking said right polarized optical image while transmitting said left polarized optical image, at a predetermined rate; and
a single optical fiber bundle disposed within the casing and having a first end face, a second end face and fibers for receiving said alternating left and right polarized optical images at said first end face and carrying them one at a time to said second end face to thereby produce a stereoscopic optical image of the intracorporeal region.
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Abstract
A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region comprises an elongate tubular casing having side walls in which an illuminating window and left and right observation windows are disposed. A single, elongate, image transmitting optical fiber bundle is disposed within the casing, as are light emitting fibers for illuminating the intracorporeal region through the illuminating window. Left and right images are collected from the observation windows and alternately passed along the casing to the fiber bundle by a relay means comprising objective lenses, mirrors, a polarizing beam splitter and an optical switch. The left and right images are carried one at a time by the fiber bundle to a video display means which displays them to a viewer. Optical valves provide that the left image is viewed by the viewer'"'"'s left and the right image is view by the viewer'"'"'s right eye, to thereby produce a stereoscopic optical image. The left and right images are displayed at a rate of alternation that is faster than the flicker-sensing limit of the human eye, resulting in flicker free viewing.
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Citations
29 Claims
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1. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope to human eyes, the laparoscope comprising:
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a hollow elongate casing having side walls and an axial direction; means coupled to the casing for illuminating the intracorporeal region to thereby cause said region to reflect light; left and right observation windows disposed in the side walls of the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; and means for processing the light received into a stereoscopic optical image of the intracorporeal region; light emitting means disposed within the hollow casing for emitting light; and an illuminating window disposed in the side walls of the casing for projecting said emitted light onto the intracorporeal region to thereby cause said region to reflect light; wherein the means for processing further comprises; imaging means coupled to the casing for processing the light received into left and right optical images of the intracorporeal region, respectively, said optical images having left and right points of view; left and right mirrors disposed within the casing for reflecting said left and right optical images within the casing in the axial direction and along a common line of sight such that said images become superimposed upon each other at some point; an imaging lens disposed within the casing between the left and right mirrors for collecting and magnifying one of said optical images to thereby cause said left and right optical images to have substantially the same magnification when they become superimposed upon each other; a polarizing beam splitter disposed within the casing along said common line of sight for receiving the left and right optical images, and for polarizing said images such that said left and right optical images have opposing polarity, respectively, and transmitting said left and right polarized optical images further along the common line of sight; at least one optical switch disposed within the casing for receiving said polarized optical images and alternately blocking said left polarized optical image while transmitting said right polarized optical image and blocking said right polarized optical image while transmitting said left polarized optical image, at a predetermined rate; and a single optical fiber bundle disposed within the casing and having a first end face, a second end face and fibers for receiving said alternating left and right polarized optical images at said first end face and carrying them one at a time to said second end face to thereby produce a stereoscopic optical image of the intracorporeal region. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope comprising:
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a hollow, elongate casing having an axial direction; means for illuminating the intracorporeal region to thereby cause said region to reflect light; a plurality of observation windows disposed in the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; a single optical fiber bundle disposed within the casing and having a first end, a second end and fibers for receiving optical images at said first end; light imaging means disposed within the casing for processing the light received from each observation window into left and right optical images of the intracorporeal region and causing said optical images to be received by the receiving fibers at the first end of the fiber bundle and carried to the second end to thereby produce a stereoscopic optical image of said region; and variable depth perception means disposed in the casing for varying the depth perception of the stereoscopic optical image. - View Dependent Claims (11, 12, 13, 14, 15, 17, 20, 21, 22)
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16. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope, said laparoscope comprising:
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a hollow elongate casing having an axial direction; means for illuminating the intracorporeal region to thereby cause said region to reflect light; left and right observation windows disposed in the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; an optical fiber bundle disposed within the casing and having a first end, a second end and fibers for receiving optical images at said first end; light imaging means disposed within the casing for processing the light received from each observation window into left and right optical images of the intracorporeal region and causing said optical images to be received by the receiving fibers at the first end of the fiber bundle and carried to the second end to thereby produce a stereoscopic optical image of said region; left and right objective lenses disposed within the casing for processing the light received by the left and right observation windows, respectively, into left and right optical images of the intracorporeal region, the left objective lens being movable in the axial direction; left and right reflective means disposed within the casing and diagonally relative to the axial direction for reflecting said left and right optical images within the casing in the axial direction and along a common line of sight such that said images become superimposed upon each other at some point, the left reflective means being movable in the axial direction; a stationary magnifying means disposed within the casing between the left and right reflective means and in the common line of sight for collecting and magnifying the left optical image to thereby cause said left and right optical images to have substantially the same magnification when they become superimposed upon each other;
a movable image transmitting means disposedwithin the casing between the left reflective means and the stationary magnifying means and in the common line of sight such that the left image passes through said movable image transmitting means before passing through the stationary magnifying means; variable depth perception means comprising; the movable left objective lens; the moveable left reflective means; the movable image transmitting means; and means for moving said movable left objective lens, left reflective means and moveable image transmitting means in the axial direction to thereby enable a three-dimensional optical image of the intracorporeal region having variable depth perceptibility, a perception of depth of said three-dimensional optical image varying with variation of the movement of the left objective lens, left reflective means and moveable image transmitting means. - View Dependent Claims (18, 19)
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23. A stereo scope for producing a stereoscopic optical image of a region external to the scope to human eyes having a flicker-sensing limit, the stereo scope comprising:
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a hollow casing having side walls; a single optical fiber bundle disposed within the casing and having a first end, a second end and fibers for receiving optical images at said first end; means for illuminating the external region comprising; light-emitting fibers disposed within the casing for emitting light within the casing; at least one illuminating window disposed in the casing for conveying the emitted light onto the external region to thereby cause said region to reflect light; and means for reflecting the emitted light from the casing through said illuminating window; left and right observation windows disposed in the side walls of the casing thereof for receiving light reflected from the external region to thereby provide left and right points of view of said region; and light imaging means coupled to the casing for processing the light received from each observation window into left and right optical images of the external region and causing said optical images to be received by the receiving fibers at the first end of the fiber bundle and carried to the second end to thereby produce a stereoscopic optical image of said external region, the light imaging means including; polarizing means disposed within the casing for polarizing the left and right optical images of the external region such that said left and right images having opposing polarity; an optical switch disposed within the casing for receiving said left and right polarized optical images and alternately blocking said left polarized optical image while transmitting said right polarized optical image and blocking said right polarized optical image while transmitting said left polarized optical image, at a predetermined rate, such that said alternating optical images are received one at a time by the receiving fibers at the first end of the fiber bundle and carried one at a time through said receiving fibers to the second end at said predetermined rate, wherein the predetermined rate of alternation is faster than the flicker-sensing limit of human eyes to thereby provide flicker free viewing; focusing means coupled to the casing for adjusting the focus of the stereoscopic optical image; and variable depth perception means for varying the depth perception of the stereoscopic optical image.
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24. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope comprising:
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a hollow elongate casing having an axial direction; means for illuminating the intracorporeal region to thereby cause said region to reflect light; a plurality of observation windows disposed in the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; a single image guide disposed within the casing for receiving and transmitting optical images; and light imaging means disposed within the casing for processing the light received from the observation windows into left and right optical images of the intracorporeal region and causing said optical images to be received by the image guide to permit said image guide to transmit said left and right optical images to thereby produce a stereoscopic optical image of said region, said light imaging means including; a first light receiving means for receiving first light from one of the windows and transmitting said first light; a second light receiving means for (i) simultaneously receiving the first light from the first light receiving means and a second light from another of the windows and (ii) simultaneously transmitting both the first and second light toward the image guide. - View Dependent Claims (25)
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26. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope comprising:
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a hollow elongate casing having an axial direction; means for illuminating the intracorporeal region to thereby cause said region to reflect light; a plurality of observation windows disposed in the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; an image guide disposed within the casing and having an image-receiving end for receiving and transmitting optical images; and light imaging means disposed within the casing for processing the light received from the observation windows into left and right optical images of the intracorporeal region and causing said optical images to be received by the image guide to permit said image guide to transmit said left and right optical images to thereby produce a stereoscopic optical image of said region, said light imaging means including first and second reflective light-receiving means for receiving and reflecting light received from the windows along a common light path, wherein said first and second reflective light-receiving means and the image-receiving end of the image guide are all positioned within the casing along a common, linear line of alignment. - View Dependent Claims (27, 28)
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29. A stereo laparoscope for producing a stereoscopic optical image of an intracorporeal region external to the laparoscope comprising:
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a hollow elongate casing having an axial direction; means for illuminating the intracorporeal region to thereby cause said region to reflect light; a plurality of observation windows disposed in the casing for receiving light reflected from the intracorporeal region to thereby provide left and right points of view of said region; a single image guide disposed within the casing for receiving and transmitting optical images; and light imaging means disposed within the casing for processing the light received from the observation windows into left and right optical images of the intracorporeal region and causing said optical images to be received by the image guide to permit said image guide to transmit said left and right optical images to thereby produce a stereoscopic optical image of said region, said light imaging means including means for transmitting said left and right optical images in a superimposed orientation along a single optical path toward the image guide.
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Specification
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Current AssigneeSterling Investments LC
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Original AssigneeConcurrent Technologies Corporation
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InventorsKolff, Jack, Saverino, Michael A., Czarnek, Robert
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Primary Examiner(s)Apley, Richard J.
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Assistant Examiner(s)Leubecker, John P.
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Application NumberUS08/392,094Time in Patent Office762 DaysField of Search600/166, 600/111, 600/167, 600/170, 600/129, 600/130, 600/173, 359/464, 359/471, 359/475, 348/45, 356/241, 385/119US Class Current600/166CPC Class CodesA61B 1/00177 for 90 degrees side-viewingA61B 1/00188 with focusing or zooming fe...A61B 1/00193 adapted for stereoscopic vi...A61B 1/042 characterised by a proximal...A61B 1/05 characterised by the image ...A61B 1/0615 for radial illuminationA61B 1/3132 for laparoscopyG02B 23/2415 Stereoscopic endoscopes
